DocumentCode
1421475
Title
Integrated control of a nonlinear turboalternator model under fault conditions
Author
Nicholson, H.
Author_Institution
University of Cambridge, Department of Engineering, Cambridge, UK
Volume
114
Issue
6
fYear
1967
fDate
6/1/1967 12:00:00 AM
Firstpage
834
Lastpage
844
Abstract
The integrated control of a nonlinear turboalternator model interconnected with a grid system and supplying a local asynchronous-type load is studied. The alternator equations incorporate the effects of transient saliency, positive-sequence damping, field-flux-linkage variation, machine saturation and excitation control. Turbine input power is controlled by a conventional governor representation with facilities for speed resetting. Transient performance of the system operating under external-load-change and short-circuit-fault conditions with line switching is studied by digital simulation, using conventional and linear-model control of the nonlinear system. Integrated control of governor-valve and alternator-field excitation is related to the optimisation of a sequence of piecewise-linearised models associated with quadratic cost functions. Improved machine-voltage and speed performance is obtained with extended stability limits using a limited set of linear models, compared with the use of independent conventional controllers. The transient control of a quadrature-axis rotor field winding in the synchronous machine is investigated and is found to be effective in improving overall performance and in extending the synchronous-machine and induction-motor stability limits.
Keywords
electric breakdown; electrical power systems; identification and modelling; insulation testing; optimal control; plastics;
fLanguage
English
Journal_Title
Electrical Engineers, Proceedings of the Institution of
Publisher
iet
ISSN
0020-3270
Type
jour
DOI
10.1049/piee.1967.0162
Filename
5249251
Link To Document